CN217343878U - Reliable high gear machining anchor clamps of transmissibility - Google Patents

Abstract

The application discloses a reliable transmission high gear machining clamp, which relates to the technical field of gear machining and comprises a shell, wherein a first clamping plate and a second clamping plate are sequentially arranged on one side of the shell from top to bottom, a motor is arranged at the top of the first clamping plate, the output end of the bottom of the motor extends into the inner cavity of the first clamping plate, one side of the first clamping plate, which is far away from the shell, is rotatably connected with a first clamping block, the output end of a rotating assembly is fixedly connected with the first clamping block and the second clamping block, the rotating rod is driven to rotate by rotating the motor, the rotating rod drives two groups of connecting rods to move in opposite directions, the connecting rods drive sliding blocks to slide in a slide way, the two groups of sliding blocks follow the connecting rods to move in opposite directions, the sliding blocks drive the first clamping plate and the second clamping plate to move in opposite directions, the transmission assembly is driven to rotate by the motor, and drives the first clamping block to rotate, the first clamping block drives the gear to rotate, and therefore the outer edge part of the gear is machined at the same angle.

Description

Reliable high gear machining anchor clamps of transmissibility

Technical Field

The application relates to the technical field of gear machining, in particular to a reliable transmission high-gear machining clamp.

Background

Gears are wheel-like mechanical parts that transmit torque by virtue of meshing of teeth. The gear can realize the functions of changing the rotating speed and the torque, changing the motion direction, changing the motion form and the like through the transmission with other toothed mechanical parts. Because of the advantages of high transmission efficiency, accurate transmission ratio, large power range and the like, the gear mechanism is widely applied to industrial products, and the design and manufacturing level of the gear mechanism directly influences the quality of the industrial products. When the gear outer edge part needs to be machined at equal angles, the gear is not convenient to rotate, the working efficiency is undoubtedly reduced, and based on the gear machining clamp with the high transmission performance is designed to solve the problem mentioned above.

SUMMERY OF THE UTILITY MODEL

In order to improve the problem that the work efficiency is lower mentioned above, this application provides the high gear machining anchor clamps of reliable transmissibility.

The application provides high gear machining anchor clamps of reliable driving nature adopts following technical scheme: the clamping device comprises a housing, casing one side has set gradually first splint and second splint from top to bottom, first splint top is provided with the motor, motor bottom output extends to in the first splint inner chamber, one side that the casing was kept away from to first splint rotates and is connected with first grip block, be provided with drive assembly between motor bottom output and the first grip block, be provided with runner assembly in the casing inner chamber, runner assembly's output and the equal fixed connection of first grip block and second grip block.

Based on above-mentioned technical characteristics, the motor through setting up drives transmission assembly and rotates, and transmission assembly drives first grip block and rotates, and first grip block drives the gear that is held and rotates.

Preferably, in the above-mentioned high gear machining anchor clamps of reliable transmission nature, the one side that the casing was kept away from at second splint top is rotated and is connected with the second grip block.

Based on above-mentioned technical characteristics, first grip block and second grip block mutually support and carry out the centre gripping to the gear.

Preferably, in the above reliable transmission high gear machining fixture, the transmission assembly includes a first transmission wheel located at the output end of the bottom of the motor, a transmission belt is wound on the first transmission wheel, a second transmission wheel is arranged at the top of the first clamping block, and one side of the transmission belt, which is far away from the first transmission wheel, is wound on the second transmission wheel.

Based on the technical characteristics, the motor drives the first driving wheel to rotate, the first driving wheel drives the driving belt to rotate, and the driving belt drives the second driving wheel to rotate.

Preferably, among the above-mentioned high gear machining anchor clamps of reliable transmissibility, the runner assembly is including being located casing one side on the rotation motor, the rotation motor output extends to the casing inner chamber in, the rotation motor output is provided with the dwang, dwang both sides tip symmetry articulates there is the connecting rod, one side that the dwang was kept away from to the connecting rod articulates there is sliding assembly.

Based on above-mentioned technical characteristics, the motor that rotates drives the dwang and rotates, and the dwang drives the connecting rod and removes.

Preferably, in the above-mentioned high gear machining anchor clamps of reliable transmissibility, the slip subassembly is including being located the slide on the casing inner chamber lateral wall, it is provided with the slider to slide in the slide, the one side that the slide was kept away from to the slider articulates on the connecting rod.

Based on the technical characteristics, the sliding block linearly moves up and down in the slide way, and then the sliding block drives the first clamping plate and the second clamping plate to move oppositely.

Preferably, in the above-mentioned high gear machining anchor clamps of reliable transmissibility, first hole has been seted up to one side that the casing is close to first splint and second splint.

Based on the technical characteristics, the first hole is arranged so that the first clamping plate and the second clamping plate can extend into the inner cavity of the shell.

Preferably, in the above-mentioned high gear machining anchor clamps of reliable transmissibility, the second hole has been seted up to one side that the casing was kept away from in first splint bottom.

Based on the technical characteristics, the first clamping block extends downwards to the bottom surface of the first clamping plate through the arranged second hole.

In summary, the present application includes at least one of the following benefits:

drive the dwang through rotating the motor and rotate, the dwang drives two sets of connecting rods and moves in opposite directions, the connecting rod then drives the slider and slides in the slide, two sets of sliders then follow the connecting rod and move in opposite directions, the slider that moves in opposite directions drives first splint and second splint and moves in opposite directions, carry out gear operation to the gear with this, it rotates to drive transmission assembly through the motor, transmission assembly drives first grip block rotatory, first grip block and second grip block mutually support and drive the gear at the uniform velocity rotatory, it is rotatory at the uniform velocity to drive the gear through mechanical device is automatic, this efficiency of work has been improved.

Drawings

FIG. 1 is a schematic structural diagram of the present application;

FIG. 2 is a schematic structural view of the transmission assembly of the present application;

FIG. 3 is a schematic view of a rotating assembly of the present application;

fig. 4 is a schematic side view of the housing of the present application.

Description of reference numerals:

1. a housing; 2. a first splint; 3. a second splint; 4. a first clamping block; 5. a transmission assembly; 501. a first drive pulley; 502. a transmission belt; 503. a second transmission wheel; 6. a rotating assembly; 601. rotating the motor; 602. rotating the rod; 603. a connecting rod; 7. a second clamping block; 8. a sliding assembly; 801. a slideway; 802. a slider; 9. a first hole; 10. an electric motor.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

Please refer to fig. 1, in the high gear machining fixture with reliable transmission, including a housing 1, a first clamping plate 2 and a second clamping plate 3 are sequentially arranged on one side of the housing 1 from top to bottom, the gear is clamped by the first clamping plate 2 and the second clamping plate 3, a motor 10 is arranged on the top of the first clamping plate 2, the output end of the bottom of the motor 10 extends into the inner cavity of the first clamping plate 2, one side of the first clamping plate 2, which is far away from the housing 1, is rotatably connected with a first clamping block 4, a transmission assembly 5 is arranged between the output end of the bottom of the motor 10 and the first clamping block 4, and the transmission assembly 5 is driven by the motor 10 to rotate.

Be provided with runner assembly 6 in the 1 inner chamber of casing, the output and the equal fixed connection of first grip block 2 and second grip block 3 of runner assembly 6, drive first grip block 2 and second grip block 3 through runner assembly 6 and move in opposite directions, one side rotation that casing 1 was kept away from at 3 tops of second splint is connected with second grip block 7, the second hole has been seted up to one side that casing 1 was kept away from in 2 bottoms of first splint, first grip block 4 extends to 2 bottom surfaces of first splint through the second hole.

Referring to fig. 2, the transmission assembly 5 includes a first transmission wheel 501 located at the bottom output end of the motor 10, the first transmission wheel 501 is driven by the motor 10 to rotate, a transmission belt 502 is wound on the first transmission wheel 501, the first transmission wheel 501 drives the transmission belt 502 to rotate, a second transmission wheel 503 is disposed at the top of the first clamping block 4, one side of the transmission belt 502 away from the first transmission wheel 501 is wound on the second transmission wheel 503, and the transmission belt 502 drives the second transmission wheel 503 to rotate.

Referring to fig. 3, the rotating assembly 6 includes a rotating motor 601 located on one side of the housing 1, an output end of the rotating motor 601 extends into an inner cavity of the housing 1, a rotating rod 602 is disposed at an output end of the rotating motor 601, the rotating motor 601 drives the rotating rod 602 to rotate, two ends of the rotating rod 602 are symmetrically hinged to a connecting rod 603, the rotating rod 602 drives two groups of connecting rods 603 to move in opposite directions, and a sliding assembly 8 is hinged to one side of the connecting rod 603 away from the rotating rod 602.

The sliding assembly 8 comprises a slide channel 801 located on the side wall of the inner cavity of the shell 1, a sliding block 802 is arranged in the slide channel 801 in a sliding mode, one side, away from the slide channel 801, of the sliding block 802 is hinged to a connecting rod 603, the connecting rod 603 drives the sliding block 802 to slide in the slide channel 801, the two groups of sliding blocks 802 move along with the connecting rod 603 in an opposite mode, the sliding blocks 802 moving in the opposite mode drive the first clamping plate 2 and the second clamping plate 3 to move in the opposite mode, and therefore gear operation is conducted on the gears.

Referring to fig. 4, a first hole 9 is formed on one side of the housing 1 close to the first clamping plate 2 and the second clamping plate 3, and the first hole 9 is disposed so that the first clamping plate 2 and the second clamping plate 3 can extend into the inner cavity of the housing 1.

The working principle is as follows: the rotating rod 602 is driven to rotate by rotating the motor 601, the rotating rod 602 drives the two groups of connecting rods 603 to move in opposite directions, the connecting rods 603 drive the sliding blocks 801 to slide in the slide ways 802, the two groups of sliding blocks 801 follow the connecting rods 603 to move in opposite directions, the sliding blocks 801 which move in opposite directions drive the first clamping plates 2 and the second clamping plates 3 to move in opposite directions, so that the gears are clamped, the motor 10 drives the first driving wheel 501 to rotate, the first driving wheel 501 drives the driving belt 502 to rotate, the driving belt 502 drives the second driving wheel 503 to rotate, the second driving wheel 503 drives the first clamping blocks 4 to rotate, the first clamping blocks 4 and the second clamping blocks 7 are matched with each other and drive the gears to rotate, the gears are driven to rotate by a mechanical device, and the working efficiency is improved.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (7)

1. Reliable high gear machining anchor clamps of driving nature, including casing (1), its characterized in that: casing (1) one side has from top to bottom set gradually first splint (2) and second splint (3), first splint (2) top is provided with motor (10), motor (10) bottom output extends to in first splint (2) inner chamber, one side rotation that casing (1) was kept away from in first splint (2) is connected with first grip block (4), be provided with between motor (10) bottom output and first grip block (4) drive assembly (5), be provided with runner assembly (6) in casing (1) inner chamber, the output and the equal fixed connection of first splint (2) and second splint (3) of runner assembly (6).

2. The jig for machining a high gear with reliable driving property according to claim 1, wherein: and a second clamping block (7) is rotatably connected to one side, far away from the shell (1), of the top of the second clamping plate (3).

3. The jig for machining a high gear with reliable driving property according to claim 1, wherein: the transmission assembly (5) comprises a first transmission wheel (501) located at the output end of the bottom of the motor (10), a transmission belt (502) is arranged on the first transmission wheel (501) in a winding mode, a second transmission wheel (503) is arranged at the top of the first clamping block (4), and one side, away from the first transmission wheel (501), of the transmission belt (502) is arranged on the second transmission wheel (503) in a winding mode.

4. The jig for machining a gear with high reliability and driving property according to claim 1, wherein: rotating assembly (6) is including being located rotation motor (601) on casing (1) one side, rotation motor (601) output extends to casing (1) inner chamber in, rotation motor (601) output is provided with dwang (602), dwang (602) both sides tip symmetry articulates there is connecting rod (603), one side that dwang (602) were kept away from in connecting rod (603) articulates there is sliding assembly (8).

5. The jig for machining a gear with high reliability and driving performance as claimed in claim 4, wherein: slide assembly (8) are including slide (801) that are located casing (1) inner chamber lateral wall, it is provided with slider (802) to slide in slide (801), one side that slide (801) are kept away from in slider (802) articulates on connecting rod (603).

6. The jig for machining a high gear with reliable driving property according to claim 1, wherein: a first hole (9) is formed in one side, close to the first clamping plate (2) and the second clamping plate (3), of the shell (1).

7. The jig for machining a high gear with reliable driving property according to claim 1, wherein: and a second hole is formed in one side, far away from the shell (1), of the bottom of the first clamping plate (2).

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